Friant Dam | |
Coordinates: | 37.0006°N -119.7053°W |
Country: | United States |
Location: | Madera/Fresno Counties, California |
Owner: | Central Valley Project United States Bureau of Reclamation |
Dam Type: | Concrete gravity |
Dam Height: | 319feet[1] |
Dam Length: | 3488feet |
Dam Width Base: | 267feet |
Dam Crosses: | San Joaquin River |
Spillway Type: | Gated overflow, 1 center flotation drum gate, 2 obermeyer pneumatically actuated gates. |
Spillway Capacity: | 83000cuft/s |
Res Name: | Millerton Lake |
Res Capacity Total: | 520528acre feet |
Res Capacity Inactive: | 120000acre feet[2] |
Res Catchment: | 1638mi2 |
Res Surface: | 4900acres |
Plant Turbines: | 1x 15 MW, 1x 8 MW, 1x 2 MW[3] |
Plant Capacity: | 25 MW |
Plant Annual Gen: | 81,409,000 KWh |
Friant Dam is a concrete gravity dam on the San Joaquin River in central California in the United States, on the boundary of Fresno and Madera Counties. It was built between 1937 and 1942 as part of a U.S. Bureau of Reclamation (USBR) water project to provide irrigation water to the southern San Joaquin Valley. The dam impounds Millerton Lake, a 4900abbr=onNaNabbr=on reservoir about 15miles north of Fresno.
The valley in which Friant Dam and Millerton Lake now lie was once the location of the historic town of Millerton. Millerton was the first county seat of Fresno County.[4] [5] In 1880, the first dam on the San Joaquin River was constructed by the Upper San Joaquin Irrigation Company roughly on the present site of Friant Dam. Built of local rock, the dam was an 800feet long, 6feet tall structure designed to divert water for the irrigation of 250000acres. The project was abandoned in the wake of floods that destroyed the dam two years later.[6]
Friant Dam was originally proposed in the 1930s as a main feature of the Central Valley Project (CVP), a federal water project that would involve building an expansive system of dams and canals on the rivers of the Central Valley to provide water for agriculture, with secondary purposes of flood control, municipal supply, and hydroelectric power generation.[7] The CVP was authorized by the 1935 Rivers and Harbors Act, while $20 million of initial funding for Friant Dam was provided by the Emergency Relief Appropriation Act of 1935.[8]
Initial surveys of the Friant Dam site were carried out in November 1935 and continued through early 1936. In January 1938, a worker's camp was established near the town of Friant to house the laborers that would ultimately work on the dam. In the middle of the Great Depression, the Friant Dam site saw a huge influx of job seekers, many of whom had to live further away in surrounding cities. More than 50,000 people attended the groundbreaking of the dam on November 5, 1939 in a celebration that is now known as "one of the greatest in San Joaquin Valley history".[9]
Construction of Friant Dam began with blasting and excavation of the dam site to remove more than 1200000yd3 of loose material above the bedrock. Before any concrete was laid on the dam's main wall, the underlying rock was extensively grouted to fill in 725 holes and seams that might otherwise cause instability in the foundation. The concrete used in the dam's construction was made from sand and gravel excavated from the San Joaquin River floodplain about 3miles below the dam to form Lost Lake. Notably, more than 5400oz of placer gold – worth $176,000 at the time – were uncovered in the excavation site.[10] A branch line of the Southern Pacific Railroad delivered this material to a concrete mixing plant, which could produce up to 6000yd3 of concrete per hour, directly adjacent to the construction site. In July 1940, the San Joaquin River was diverted through a wooden flume so that work on the foundations could begin.[10]
On July 29, the first concrete was poured into the main body of Friant Dam. In order to keep the structure in line, the dam was built in a series of blocks or forms, each measuring 50feet square. Concrete was placed via a massive steel trestle system 210feet high and 2200feet long, along which ran small powered railcars that delivered buckets of concrete from the mixing plant. Two gantry cranes lifted the buckets from the cars and poured them onto the forms. In summer 1941, the labor force reached a peak of 1,500, and the monthly record for concrete placement, at 228000yd3, was set in August. During the dam's construction several Native American burial sites had their graves removed and re-interred.
The workforce scrambled to complete the main wall of the dam after an act of the War Production Board (WPB) suspended resources in order to assist U.S. military efforts in World War II. The dam was topped out on June 16, 1942, just under two years after the first concrete was poured. However, the spillway gates, the water release valves and the two irrigation canals Friant was intended to support remained unfinished in the wake of the WPB's order.[10]
The war, however, did not completely halt construction. Less than a year later, the WPB "[determined] the completion of the Madera Canal and the installation of valves at the Friant Dam, necessary for war-time food and fiber production" – allowing construction to resume on a limited scale.[10] A pair of control valves were borrowed from Hoover Dam, allowing the closure of the river outlets and Millerton Lake began to fill on February 21, 1944. Work on the Madera Canal, the smaller of the two irrigation canals serviced by Friant Dam (the other, the Friant-Kern Canal, would not be completed for another four years), was completed in 1945 and water ran for its entire length for the first time on June 10, with irrigation deliveries commencing one month later.[10]
The dam was formally dedicated on July 9, 1949 by California governor Earl Warren, who declared that the water furnished by Friant Dam and its canals would help the San Joaquin Valley to "become a modern Eden" as water was released into the partially completed Friant-Kern Canal for the first time.[11] More than three thousand people, mostly residents of the San Joaquin Valley, attended the ceremonies.
Friant Dam's primary purpose is to capture the fluctuating flows of the San Joaquin River and divert the water for irrigation through the Friant-Kern and Madera Canals. The Friant-Kern Canal is 151.8miles long, extending south from the dam to the Kern River near Bakersfield, and has an initial diversion capacity of 5000cuft/s; the 35.9miles Madera Canal, which has a capacity of up to 1000cuft/s, travels north from the dam to the Chowchilla River. Together, these canals provide irrigation water to some 837000acres of the San Joaquin Valley. In 1990, farmers who received their water from Friant Dam produced more than $1.9 billion worth of 90 different kinds of crops.[12]
Millerton Lake has a capacity of 520528acre feet at normal maximum pool, with a surcharge (above spillway gates, but below the dam crest) capacity of approximately 91000acre feet for a total capacity of 611500acre feet. About 170000acre feet, or 32.7% of the reservoir's regular capacity, is reserved for flood control between October and January to protect against rain floods, while between February and July, this is increased to 390500acre feet – 75.0% – to provide space for snowmelt floods.[13] The dam is operated to maintain a flow of 6500cuft/s or less on the San Joaquin River at Mendota, 60miles downriver. However, large snowmelt floods often exceed the capacity of the dam and reservoir and force larger releases downstream, potentially causing damage to riverside property and infrastructure.[3]
The dam is also used to generate up to 25 megawatts (MW) of hydroelectric power. The penstock releasing water into the Friant-Kern Canal is fitted with a Kaplan turbine with a capacity of 15 MW, and the Madera Canal penstock is equipped with a smaller 8 MW turbine. The smallest hydroelectric generator, with a capacity of 2 MW, is located at the outlet works on the base of the dam and produces power from water releases that serve local farms along the San Joaquin River directly downstream from Friant Dam, as well as releases to a fish hatchery below the dam and for wildlife management purposes.[3]
Because of its relatively small storage capacity relative to the average annual discharge of the San Joaquin River – 520528acre feet versus 1790000acre feet – Friant Dam often has to release excessive amounts of water that could be otherwise used for irrigation or power generation, also causing downstream damage. From 1981 to 2011, an average of 450000acre feet was spilled each year because the reservoir was unable to contain it.[14] The USBR has proposed increasing the height of Friant Dam by up to 140feet, nearly tripling the reservoir's storage capacity to 1390000acre feet. A smaller 60feet raise would increase storage capacity to 860500acre feet, while a 25feet raise would increase storage capacity to 652500acre feet. The increase in height would also allow for the generation of between 4.7–30.4 MW of additional power.[15] [16]
Another proposal to increase storage in the upper San Joaquin River basin is Temperance Flat Dam, which would be located in the San Joaquin River canyon upstream of Friant Dam and impound between 460000acre feet2775000acre feet of water.[17] The proposed dam would stand 415feetto840feetft (toft) high above the river, and it would capture most of the floodwater that would otherwise be spilled from Friant Dam. However, Temperance Flat has come under heavy controversy because it would flood a large scenic section of the San Joaquin River gorge, negatively affect wildlife in the river and inundate two upstream hydroelectric power plants, causing a net loss in power generation.[18] The water supplied from such a dam would be very expensive, ranging from $1000–1500 per acre foot (area farmers currently pay about $60 per acre foot). Raising Friant Dam would likely produce similar increases in the cost of irrigation water.[19]
By diverting most of the San Joaquin River for irrigation, the Friant Dam has caused about 60miles of the river to run dry except in high water years when floodwaters are spilled from the dam. The desiccation of the river has caused the degradation of large stretches of riverside habitat and marshes, and has nearly eliminated the historic chinook salmon run that once numbered "possibly in the range of 200,000 to 500,000 spawners annually".[20] Reduction in flows has also increased the concentration of pesticide and fertilizer runoff in the river contributing to pollution that has further impacted aquatic species.[21]
On September 13, 2006, after eighteen years of litigation, environmental groups, fisherman and the USBR reached an agreement on releasing part of the water currently diverted into the irrigation canals into the San Joaquin River in order to help restore the river and its native fish and wildlife. The first water was released on October 2, 2009 at a rate of 185cuft/s.[22] By 2014, these "restoration flows" will be increased to 302000acre feet per year, or 417cuft/s, on top of the 117000acre feet that is currently released for agricultural purposes. However, the river restoration project will cause a 12–20% reduction in irrigation water delivered from Friant Dam.[23]